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LumaSense Technologies, Inc., one of the most trusted providers of innovative temperature and gas measurement devices, was acquired by Advanced Energy in September 2018.
LumaSense infrared measurement sensors and products are now part of Advanced Energy's portfolio and complement a range of photonics-based measurement and monitoring solutions for Advanced Energy's leading precision, power and control technologies for semiconductor and industrial markets..
The Impac® IN 140/5 digital pyrometers are ideal for non-contact temperature measurement of glass and quartz-glass surfaces between 250 and 2500°C.
The IN 140/5 series showcases very short response time and extremely small spot sizes. It has two model variations. The IN 140/5-L is equipped with a better field-of-view (optics 2-NL) and the high-speed IN 140/5-H has a short response time of only 10 ms.
Advanced Energy's Impac IN 5/5 and IN 5/5 plus series are specially designed pyrometers for non-contact temperature measurement of glass and quartz surfaces.
Advanced Energy's Impac IN 6/78-L and IN 6/78-H are specially designed pyrometers for non-contact temperature measurement of thin glass sheets.
Advanced Energy’s Impac 140/39 allows you to measure temperature through flames and combustion as well as penetrate glass.
Advanced Energy's Impac IS 50-LO/GL is a specially designed pyrometer for temperature measurement in glass applications.
Advanced Energy’s battery-driven Impac series 8 pro pyrometers offer wide temperature ranges and high accuracy. The series features Impac IS 8 pro, IGA 8 pro, and IS-8GS pro.
Increasing quality standards and higher energy costs demand more accurate and consistent temperature control in steel-making processes. Our pyrometers for metal applications provide cutting-edge technology, ease-of-use, and dependability.
The Impac IN 5/5 plus compact pyrometers are specially designed for non-contact temperature measurement of glass and quartz glass surfaces with temperature ranges between 100 and 2500°C. These instruments are digital pyrometers equipped with a digital interface, enabling temperature indication and storage on a PC. A temperature subrange can also be configured and you can adjust parameters remotely. The version IN 5/5-L plus is equipped with optics for better fields of view for the measurements of small objects. The high-speed version IN 5/5-H plus has a shorter exposure time of only 10 ms and is suited for fast-measuring tasks.
Advanced Energy’s Impac IS 6, IGA 6, and IGA 6/23 Advanced are digital and compact pyrometers for non-contact temperature measurement of metals, ceramics, or graphite.
Advanced Energy’s Impac ISR 6 Advanced is a digital, compact and fast two-color pyrometer for non-contact temperature measurement.
Advanced Energy’s Impac ISR 6-TI Advanced pyrometer combines the two-color method and thermal imaging in a single non-contact temperature measurement system.
Advanced Energy's Impac IS 12 and IGA 12 series pyrometers are robust, digital, and highly accurate for non-contact temperature measurement.
Advanced Energy's Impac ISR 12-LO and IGAR 12-LO are digital two-color pyrometers with fiber optics for non-contact temperature measurement.
Advanced Energy's Impac IS 12-TSP and IGA 12-TSP are fully digital, extremely precise transfer standard pyrometers for exact inspection of calibration sources.
Advanced Energy's Impac 50-LO plus and IGA 50-LO plus series include pyrometers with fiber optics for non-contact temperature measurement on metals, ceramics, graphite, etc.
Advanced Energy's Impac IS 140 and IGA 140 series includes pyrometers with focusable optics for non-contact temperature measurement.
Advanced Energy's Impac IGA 140/23 series pyrometers are digital, highly accurate pyrometers for non-contact temperature measurement on metals, ceramics, graphite etc.
Advanced Energy’s battery-driven Impac series 8 pro pyrometers offer wide temperature ranges and high accuracy. The series features Impac IS 8 pro, IGA 8 pro, and IS-8GS pro.
Advanced Energy’s Impac IPE 140 is a highly accurate and fully digital pyrometer. It features focusable optics and is ideal for metal, ceramic, and graphite temperature measurement.
Advanced Energy’s Impac 140/39 allows you to measure temperature through flames and combustion as well as penetrate glass.
Advanced Energy's Impac IS 320, IGA 320, and IGA 320/23 are short wavelength infrared thermometers. They are used for measuring metallic surfaces, graphite, and ceramics, etc.
Advanced Energy's IGA 320/23-LO is a short wavelength infrared measuring instrument with fiber optics and internal digital signal processing capabilities. This pyrometer is used for measurements of metallic surfaces, graphite, and ceramics, etc.
Advanced Energy's Impac ISR 320 and IGAR 320 pyrometers measure via the two-color (ratio) method.
Advanced Energy’s Impac High Speed 740 series features stationary pyrometers for non-contact temperature measurement of metallic surfaces, graphite, ceramics, etc.
Advanced Energy’s Impac KTS 218 and KTG 218 are infrared temperature switches that recognize hot objects within their field of views.
Advanced Energy's Mikron PhotriX pyrometers offer ultra-accurate, precise infrared temperature measurement with unmatched low-temperature capability.
Advanced Energy's Impac 600 series is a digital pyrometer series that provides a highly customizable design with easy installation and maintenance. The IN 600 is a digital pyrometer with exchangable sensor heads for non-contact temperature measurement of non-metallic or coated metallic surfaces.
Advanced Energy's Impac IN 300 is a small, stationary pyrometer using a two-wire technique for non-contact temperature measurement of non-metallic surfaces.
Advanced Energy's Impac IN 5 and IN 5 plus pyrometers have a solid and robust design for temperature measurement of non-metallic surfaces and painted, coated, or anodized metals.
Advanced Energy’s Impac IN 5/9 plus pyrometer is specially designed for non-contact sapphire and sapphire wafer temperature measurement. It features an analog output and digital interface.
Advanced Energy's Impac IN 500 series includes the IN 510 and IN 520 and are digital pyrometers with miniature sensor heads for non-contact temperature measurement of non-metallic or coated metallic surfaces.
Advanced Energy’s Impac IPE 140/34 is a highly accurate digital pyrometer with an extremely narrow spectral range.
Advanced Energy’s Impac IPE 140/45 pyrometer features a specialized CO2 absorption band to accurately measure hot CO2 gas.
Advanced Energy's E2T Pulsar 4 instruments provide infrared thermometry for sulfur reactors and other high-temperature furnaces in temperatures between 350 to 2000°C.
Advanced Energy's E2T Quasar 2 instruments provide continuous monitoring and detection of pilot flame and flared gases from flares.
Advanced Energy's E2T Quasar M8100 series instruments provide continuous monitoring and detection of flare stack pilot (PM), smoke (SM), and flares (FM).
Access field-proven temperature measurement technologies. Advanced Energy's Sekidenko line of optical fiber thermometers delivers real-time measurement via in-situ probes, optimizing process control.
Advanced Energy's Mikron PhotriX pyrometers offer ultra-accurate, precise infrared temperature measurement with unmatched low-temperature capability.
Advanced Energy’s Sekidenko MXE measures at ultra-high-speed sampling rates (up to 10 kHz) and offers combined temperature and active reflectance for precise control in dynamic processes.
The Sekidenko OR4000E delivers precision temperature measurement, using active-emissivity compensation for accurate measurement and control under changing-emissivity conditions.
The Sekidenko OR4000T is ideally suited to measure temperature in the most tightly controlled applications, where uniform, repeatable temperatures are required for process success.
The Sekidenko OR400M offers the precise temperature measurement essential to semiconductor applications that require longer wavelengths.
The Sekidenko OR400T delivers accurate, non-contact temperature and emissivity measurements in a compact, modular platform.
Advanced Energy's UV 400 and UVR 400 pyrometers directly measure wafer surface temperature instead of the traditional susceptor/pocket temperature.
Advanced Energy's BoilerSpection MB imaging system utilizes special mid-wave infrared detectors to see through flames. This unique feature means BoilerSpection MB can provide the clearest and most stable through-flame images in boilers, furnaces, kilns, or incinerators.
Advanced Energy's BoilerSpection SD imaging system provides clear, informative through-flame imaging. With BoilerSpection SD, you can proactively manage your boilers and vastly improve uptime. In fact, a return on investment study by customers found ROI measured in only a few months, not years.
Advanced Energy's FlareSpection system provides pilot flame monitoring for applications with multiple flare tips. You can confirm flare operation remotely and detect differences in flare stack heat signatures.
Advanced Energy's FurnaceSpection system provides real-time continuous temperature measurement to identify process abnormalities inside high-temperature furnaces in refining, metals, and glass production processes. It measures the temperature of product, refractory, and heat transfer surfaces inside natural gas-fired furnaces.
Advanced Energy's Mikron MC320 series is a cost-effective, high performance non-contact infrared imager that serves a broad range of process monitoring applications.
Advanced Energy's Mikron MCL640 offers unparalleled accuracy for demanding industrial and manufacturing applications. This product is designed with advanced, maintenance-free electronics and industrial protective packaging.
Advanced Energy's Mikron MCS640 series offers short wavelength infrared (SWIR) thermal imagers with internal digital signal processing. The imagers are suitable for graphite, ceramics, and metallic-surface applications.
Advanced Energy's ThermalSpection 724 allows you to remotely monitor multiple, distant substations from a central location.
Advanced Energy's ThermalSpection CVM system uses non-contact thermal imaging to provide real-time, continuous, automated fault detection and monitoring for your critical assets.
As a leader in trace and multi-gas monitoring, Advanced Energy delivers various NDIR and PAS gas solutions. Our gas monitors are ideal for all kinds of environments and applications and feature superior sensitivity.
Advanced Energy's Innova 1314i is a highly accurate, reliable, and stable quantitative gas monitor. Its measurement principle is based on the photoacoustic detection method. Extremely versatile by design, the 1314i can measure at trace levels almost any gas that absorbs infrared light.
The Advanced Energy Innova 1403 is a reliable, easy-to-use multipoint sampler and doser. It combines with the Innova 1512 photoacoustic gas monitor and a controlling computer featuring the Innova 7650 basic ventilation software to offer numerous monitoring capabilities.
The Advanced Energy Innova 1409 is a reliable, easy-to-use multipoint sampler for gas sampling of up to 24 different locations. The Innova 1409 is designed to be remotely controlled from a PC using a USB interface in conjunction with an Innova Photoacoustic Gas Monitor to provide a flexible, sensitive, and accurate monitoring system.
Advanced Energy's Innova 1512 is based on the photoacoustic infrared spectroscopy and delivers superior sensitivity in a very compact form factor. Extremely versatile by design, the 1512 is capable of measuring almost any gas that absorbs infrared light.
The Advanced Energy Innova 3433i is a highly accurate and reliable multi-gas monitor with a special configuration for Exhaust Gas or SHED evaporative testing. The measurement system, based on the photoacoustic infrared detection method, is capable of measuring almost any gas that absorbs infrared light. Gas selectivity is achieved through the use of optical filters.
The Advanced Energy Innova 3750-2 basic ventilation system (dual gas) and Innova 3750-5 basic ventilation system (multi-gas) offer fully integrated gas monitoring solutions. They enable accurate tracer gas methods and are ideal for ventilation performance studies or testing.
Tracer gas methods enabled:
• Concentration decay
• Constant injection
The Advanced Energy Innova 3751-2 basic ventilation system (dual gas) and Innova 3751-5 basic ventilation system (multi-gas) offer fully integrated gas monitoring solutions. They enable accurate tracer gas methods and are ideal for ventilation performance studies or testing.
Tracer gas methods enabled:
• Concentration decay
• Constant injection
• Constant concentration
The Advanced Energy Innova 3731 SF6 leak detection system uses photoacoustic spectroscopy (PAS) technology. It offers highly accurate and stable quantitative gas detection.
Reduce gas measurement costs with modules that measure multiple gases and eliminate field calibration. Our Andros OEM gas modules lead the way in non-dispersive infrared (NDIR) gas analysis for automotive emissions and patient monitoring.
Advanced Energy’s Andros 6500 and 6520 gas analyzers offer unparalleled accuracy and performance via simplified design and implementation. Unlike analyzers that require moving components, the 6500 and 6520 use pulsed-infrared sources to achieve high accuracy and reliability.
Advanced Energy’s Andros 6511 gas analyzer offers unparalleled accuracy and performance. It’s designed to meet and exceed performance requirements for portable or fixed leak detectors of toxics or combustibles.
Advanced Energy’s Andros 6552 gas analyzer is available with two gas channels and can be applied to any type or combination of refrigeration systems that employ FreonsTM and carbon dioxide.
Advanced Energy's Luxtron ThermAsset2 is designed to measure transformer winding hot spots in real time and activate control of the cooling system.
Advanced Energy’s Luxtron® FluorOptic Temperature (FOT) Sensors use the principles of phosphorescence to deliver high-accuracy temperature monitoring for critical semiconductor applications such as plasma etch and plasma enhanced deposition. The sensors are immune to interference from RF and microwave sources, enabling the sub-1 °C process control required to achieve device performance and yield for leading edge semiconductor devices.
Advanced Energy's WaveCapture Fiber Bragg Grating Analyzer (FBGA) is an integrated spectral analyzer that serves as the heart of precise, fast, and reliable FBG sensing systems.
Advanced Energy's WaveCapture Fiber Bragg Grating Analyzer (FBGA) spectral analyzer with an internal reference source (IRS) serves as the heart of precise, fast, and reliable FBG sensing systems requiring increased precision. The addition of the IRS enables greater repeatability for FBG sensing systems or research requiring repeatability better than 2 pm.
Advanced Energy's WaveCapture Fiber Bragg Grating Analyzer (FBGA) interrogation systems with an integrated light source provide complete systems for use with FBG sensors. Systems are available in 1, 4, and 16 channel models.
Flexibility and performance unite with Advanced Energy’s Thyro SCR power controllers. From simple to complex, ensure product quality with proven SCR operation, control modes, digital mains load optimization, and voltage sequence control.
With an optional display and increased measuring accuracy, the Thyro-A+ digital SCR power controller series offers comprehensive operating and control modes to save system costs for resistive and transformer loads in various applications.
Efficient yet powerful, the Thyro-S power controller is Advanced Energy’s most compact digital thyristor switch.
Developed with the highest degree of reliability and state-of-the-art driven technology, the Thyro-PX DC series of digital SCR power controllers are designed for all DC rectifier applications. The series supports multiple operating voltages and control modes.